Hormones

Question 1

Which ecdysteroid is the immediate cause of moulting in insects?

Answer 1

20-hydroxyedysone

Question 2

Which ecdysteroid produces 20-hydroxyecdysone?

Answer 2

Ecdysone

Question 3

Which glands secrete the ecdysteroid Ecdysone?

Answer 3

The prothoracic glands

Question 4

Where does the conversion of ecdysone to 20-hydroxyecdysone occur?

Answer 4

Fat body

Question 5

What is the structure and properties of Ecdysone and 20-hydroxyecdysone?

Answer 5

They are steroids with numerous -OH groups that are polar and therefore they are very soluble in water

Question 6

What is the purpose of binding proteins in relation to Ecdysone and 20-hydroxyecdysone?

Answer 6

They transport the steroids in the haemolymph (as they are soluble) and protect them from enzymatic attack or excretion - hence their availability is one method of regulating ecdysteroid levels

Question 7

How does 20-hydroxyecdysone initiate moulting?

Answer 7

It acts directly on the hypodermis DNA and binds at specific receptor sites in the nuclei. It activates the genes responsible for the production of RNA. This leads to the production of enzymes responsible for cell division, growth and other changes that occur during moulting.

Question 8

Is 20-hydroxyecdysone a general growth hormone? Why/why not?

Answer 8

No because some tissues are unaffected by it

Question 9

Can insects synthesise steroids?

Answer 9

No, they must obtain them from their diet

Question 10

What is the fate of prothoracic glands in adults?

Answer 10

They degenerate and disappear except in Apterygota and the sub imago of Ephemeroptera

Question 11

Where is PTTH produced?

Answer 11

In the neurosecretory cells located in the pars intercerebium of the brain

Question 12

How is ecdysone produced?

Answer 12

The prothoracic glands are stimulated to produce ecdysone by PTTH

Question 13

What is the function of the corpora cardiaca?

Answer 13

To store and releases hormones produced by brain.

Question 14

What does high concentrations of 20-hydroxyecdysone do?

Answer 14

Inhibits the release of PTTH and stimulates its synthesis

Question 15

What is the function of octopamine?

Answer 15

To potentiate the release of adipokinetic hormones (such as lipids when locusts start flying)

Question 16

What are some hormones released by the corpora cardiaca?

Answer 16

Hypolipaemic hormone, hyperglycaemic hormone, eclosion hormone, antidueric hormone, cardioaccelerator hormone

Question 17

What is the function of the hypolipaemic hormone?

Answer 17

To lower haemolymph fat levels

Question 18

What is the function of the hyperglycaemic hormone?

Answer 18

To increase haemolymph sugar levels (trehalose)

Question 19

What is the function of the antidiuretic hormone?

Answer 19

To reduce fluid secretion by the Malpighian tubules and rectum

Question 20

What is the function of the cardioaccelerator hormones?

Answer 20

To fasten the heartbeat

Question 21

How is PTTH released?

Answer 21

It is produced by the neurosecretory cells in the pars intercerebium and the secretion from these cells passes along their axons within a pair of nerves to the corpora cardiac where it is stored in the swollen ends of the axons until they are released into the blood by action potentials passing down the axons

Question 22

What is the purpose of the juvenile hormone (JH)?

Answer 22

To control the way cells differentiate at each moult

Question 23

What happens at different concentrations of the juvenile hormone?

Answer 23

When it is present the larval form is retained but if it is present at very low levels then the adult form differentiates, for example low concentrations initiate the development of the internal reproductive organs in adults

Question 24

Where is the juvenile hormone produced?

Answer 24

In the corpora allata

Question 25

What is the corpora allata?

Answer 25

Small, spherical glands that arise from the ectoderm of the maxillary segment of the embryo - each receive a nerve from the corpora cardiaca adjacent to it

Question 26

How does JH regulate?

Answer 26

By using negative feedback to suppress the activity of the corpora allata

Question 27

What is the fate of the corpora allata in adults?

Answer 27

It recommences production of the juvenile hormone

Question 28

How many analogues of JH occur? Which insects do they predominate in?

Answer 28

4 - JH3 occurs in most insects but JH0, JH1 and JH2 occur in Lepidoptera

Question 29

Which four hormones orchestrate the events surrounding eclosion?

Answer 29

The ecdysis triggering hormone, the eclosion hormone, the cardioactive peptide and bursicone

Question 30

What is the hormonal process of moulting?

Answer 30

Preparation begins when declining ecdysteroid concentrations stimulate the degradation of the old endocuticle. The ecdysis triggering hormone is released into the hemolymph by the epitracheal glands and acts directly on the ventral ganglia cells to switch on pre-eclosion behaviour. This loosens the old cuticle from the new cuticle. The ecdysis triggering hormone stimulates brain cells to release the eclosion hormone. The eclosion hormone is released locally in the CNS and into the hemolymph. In the CNS it stimulates the release of bursicone. In the hemolymph it plasticises the cuticle and stimulates the release of CCAP in the ventral ganglia. CCAP switches off pre-eclosion behaviour and switches on eclosion behaviour. This results in the exuviae being shrugged off and lost. Contractions of the abdomen force hemolymph into the wings and wing spreading begins. Bursicon first further plasticises the cuticle and allows for the expansion of the wings and switches on sclerotization of the new cuticle.

Question 31

What is pre-eclosion behaviour?

Answer 31

A series of abdominal rotations and wriggling movements which loosen the old cuticle from the new cuticle

Question 32

What is CCAP?

Answer 32

Crustacean cardioactive peptide

Question 33

What is the role of Bursicon in moulting?

Answer 33

Plasticises the cuticle and allows for expansion of the wings and switches on sclerotisation of the new cuticle

Question 34

What is the role of CCAP in moulting?

Answer 34

To switch off pre-eclosion behaviour and switch on eclosion behaviour to shrug off the old cuticle

Question 35

What is the role of the eclosion hormone in moulting?

Answer 35

To stimulate the release of bursicone in the CNS and to stimulate the release of CCAP in the ventral ganglia as well as plasticise the cuticle

Question 36

What is the role of the ecdysis triggering hormone in moulting?

Answer 36

To switch on pre-eclosion behaviour and to stimulate the release of the eclosion hormone

Question 37

What initiates moulting?

Answer 37

Declining ecdysteroid concentrations stimulate the degradation of the old endocuticle and stimulates the release of the ecdysis triggering hormone from the epitracheal glands

Question 38

What does the presence of prostaglandins in insects suggest?

Answer 38

Prostaglandins are shared by invertebrates and vertebrates which suggests they have a highly conservative structure over extremely long periods of evolution

Question 39

Which system controls short-term coordination?

Answer 39

Nervous System

Question 40

Which system controls long term physiological, developmental and behavioural coordination?

Answer 40

Endocrine System

Question 41

What are hormones?

Answer 41

Chemicals produced within an organism’s body that are transported to another site where they have an effect

Question 42

What are the arthropod moulting hormones?

Answer 42

PTTH and Ecdysteroids

Question 43

What is the function of PTTH, structure and where is it produced?

Answer 43

Produced by neurosecretory cells and released by corpora cardiaca and it controls activity of prothoracic glands (controls synthesis of ecdysteroids). It is a peptide.

Question 44

Function of ecdysteroids, structure and where are they produced?

Answer 44

Produced in prothoracic gland (ecdysone) and fat bodies (20-hE). They control apolysis and the development of the new cuticle. They are steroids.

Question 45

How is PTTH regulated and transported?

Answer 45

Poorly known, release is inhibited by 20-hE and transport is water soluble

Question 46

How are ecdysteroids regulated and transported?

Answer 46

Ecdysteroids are produced by the prothoracic gland which is regulated by PTTH, it is also controlled by CNS and inhibitory hormones. Transport is bound by protein.

Question 47

What are the other moulting hormones and what are their function?

Answer 47

Ecdysis triggering hormone (ETH): triggers release of eclosion hormone.

Eclosion Hormone (EH): triggers release of CCAP and bursicone

Crustacean cardioactive peptide: Causes blood inflow in thorax and expansion of wings

Bursicone: plastication and then sclerotisation of new cuticle

Question 48

Describe the structure, function and source of the juvenile hormone

Answer 48

They are sesquiterpenes that are formed in the corpora allata (juveniles) or gonads (adult). They are regulated by neurosecretory cells, directly by CNS and low titre synthesis. They are transported bound by proteins. They control metamorphosis and gonadotropic hormones (adults).

Question 49

What does the JH do?

Answer 49

It maintains larval characteristics during moulting. High titre of JH means ecdysone promotes larva-to-larva moults. Lower titre of JH means ecdysone promotes pupation. Absence of JH means the formation of the adult. It works by affecting gene expression in the cell nuclei. In adults, it controls the production of eggs and vitellogenesis (deposition of yolk) into developing eggs.

Question 50

What key genes are associated with metamorphosis?

Answer 50

Kr-h1, Broad and Ecdysone-inducible protein 93F (E93)

Question 51

What is the Kr-h1 gene?

Answer 51

It is associated with the maintenance of the larval condition. It is induced by the JH through the JH receptor ‘Met’. It suppresses expression of Broad and E93. The removal of either JH, ‘met’ or Kr-h1 produces the same developmental response (the larval initiate the premature metamorphosis).

Question 52

What is the broad gene?

Answer 52

It activates genes specific to the pupal stage and suppresses adult/larval stages. It is induced by 20hE acting in the absence of JH. It disappears when the pupa begins the transformation to the adult. The treatment of pupa with JH allows broad to be reinduced by 20hE and a second pupal moult ensues.

Question 53

What is the E93 gene?

Answer 53

It is the stage specifying gene for the adult. It first appears during the prepupal stage and is high in pupa during the formation of the adult. It reduces the expression of Broad and Kr-h1 allowing profession to the adult. The knockdown of E93 results in a repeat of the pupal moult.